// RUN: mlir-opt %s -split-input-file | mlir-opt | FileCheck %s // CHECK-LABEL: func private @sparse_1d_tensor( // CHECK-SAME: tensor<32xf64, #sparse_tensor.encoding<{ lvlTypes = [ "compressed" ] }>>) func.func private @sparse_1d_tensor(tensor<32xf64, #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed) }>>) // ----- #CSR = #sparse_tensor.encoding<{ map = (d0, d1) -> (d0 : dense, d1 : compressed), posWidth = 64, crdWidth = 64 }> // CHECK-LABEL: func private @sparse_csr( // CHECK-SAME: tensor>) func.func private @sparse_csr(tensor) // ----- #CSR_explicit = #sparse_tensor.encoding<{ map = {l0, l1} (d0 = l0, d1 = l1) -> (l0 = d0 : dense, l1 = d1 : compressed) }> // CHECK-LABEL: func private @CSR_explicit( // CHECK-SAME: tensor> func.func private @CSR_explicit(%arg0: tensor) { return } // ----- #CSC = #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : dense, d0 : compressed), posWidth = 0, crdWidth = 0 }> // CHECK-LABEL: func private @sparse_csc( // CHECK-SAME: tensor (d1, d0)> }>>) func.func private @sparse_csc(tensor) // ----- #DCSC = #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : compressed, d0 : compressed), posWidth = 0, crdWidth = 64 }> // CHECK-LABEL: func private @sparse_dcsc( // CHECK-SAME: tensor (d1, d0)>, crdWidth = 64 }>>) func.func private @sparse_dcsc(tensor) // ----- #COO = #sparse_tensor.encoding<{ map = (d0, d1) -> (d0 : compressed(nonunique, nonordered), d1 : singleton(nonordered)) }> // CHECK-LABEL: func private @sparse_coo( // CHECK-SAME: tensor>) func.func private @sparse_coo(tensor) // ----- #BCOO = #sparse_tensor.encoding<{ map = (d0, d1, d2) -> (d0 : dense, d1 : compressed(nonunique, high), d2 : singleton) }> // CHECK-LABEL: func private @sparse_bcoo( // CHECK-SAME: tensor>) func.func private @sparse_bcoo(tensor) // ----- #SortedCOO = #sparse_tensor.encoding<{ map = (d0, d1) -> (d0 : compressed(nonunique), d1 : singleton) }> // CHECK-LABEL: func private @sparse_sorted_coo( // CHECK-SAME: tensor<10x10xf64, #sparse_tensor.encoding<{ lvlTypes = [ "compressed_nu", "singleton" ] }>>) func.func private @sparse_sorted_coo(tensor<10x10xf64, #SortedCOO>) // ----- #BCSR = #sparse_tensor.encoding<{ lvlTypes = [ "compressed", "compressed", "dense", "dense" ], dimToLvl = affine_map<(i, j) -> (i floordiv 2, j floordiv 3, i mod 2, j mod 3)> }> // CHECK-LABEL: func private @sparse_bcsr( // CHECK-SAME: tensor<10x60xf64, #sparse_tensor.encoding<{ lvlTypes = [ "compressed", "compressed", "dense", "dense" ], dimToLvl = affine_map<(d0, d1) -> (d0 floordiv 2, d1 floordiv 3, d0 mod 2, d1 mod 3)> }>> func.func private @sparse_bcsr(tensor<10x60xf64, #BCSR>) // ----- #ELL = #sparse_tensor.encoding<{ lvlTypes = [ "dense", "dense", "compressed" ], dimToLvl = affine_map<(i,j)[c] -> (c*4*i, i, j)> }> // CHECK-LABEL: func private @sparse_ell( // CHECK-SAME: tensor (d0 * (s0 * 4), d0, d1)> }>> func.func private @sparse_ell(tensor) // ----- #CSR_SLICE = #sparse_tensor.encoding<{ lvlTypes = [ "dense", "compressed" ], dimSlices = [ (1, 4, 1), (1, 4, 2) ] }> // CHECK-LABEL: func private @sparse_slice( // CHECK-SAME: tensor> func.func private @sparse_slice(tensor) // ----- #CSR_SLICE = #sparse_tensor.encoding<{ lvlTypes = [ "dense", "compressed" ], dimSlices = [ (1, 4, 1), (1, 4, 2) ] }> // CHECK-LABEL: func private @sparse_slice( // CHECK-SAME: tensor> func.func private @sparse_slice(tensor) // ----- #CSR_SLICE = #sparse_tensor.encoding<{ lvlTypes = [ "dense", "compressed" ], dimSlices = [ (1, ?, 1), (?, 4, 2) ] }> // CHECK-LABEL: func private @sparse_slice( // CHECK-SAME: tensor> func.func private @sparse_slice(tensor) // ----- // TODO: It is probably better to use [dense, dense, 2:4] (see NV_24 defined using new syntax // below) to encode a 2D matrix, but it would require dim2lvl mapping which is not ready yet. // So we take the simple path for now. #NV_24= #sparse_tensor.encoding<{ map = (d0, d1) -> (d0 : dense, d1 : compressed(block2_4)) }> // CHECK-LABEL: func private @sparse_2_out_of_4( // CHECK-SAME: tensor> func.func private @sparse_2_out_of_4(tensor) // ----- #BCSR = #sparse_tensor.encoding<{ map = ( i, j ) -> ( i floordiv 2 : compressed, j floordiv 3 : compressed, i mod 2 : dense, j mod 3 : dense ) }> // CHECK-LABEL: func private @BCSR( // CHECK-SAME: tensor (d0 floordiv 2, d1 floordiv 3, d0 mod 2, d1 mod 3)> }>> func.func private @BCSR(%arg0: tensor) { return } // ----- #BCSR_explicit = #sparse_tensor.encoding<{ map = {il, jl, ii, jj} ( i = il * 2 + ii, j = jl * 3 + jj ) -> ( il = i floordiv 2 : compressed, jl = j floordiv 3 : compressed, ii = i mod 2 : dense, jj = j mod 3 : dense ) }> // CHECK-LABEL: func private @BCSR_explicit( // CHECK-SAME: tensor (d0 floordiv 2, d1 floordiv 3, d0 mod 2, d1 mod 3)> }>> func.func private @BCSR_explicit(%arg0: tensor) { return } // ----- #NV_24 = #sparse_tensor.encoding<{ map = ( i, j ) -> ( i : dense, j floordiv 4 : dense, j mod 4 : compressed(block2_4) ) }> // CHECK-LABEL: func private @NV_24( // CHECK-SAME: tensor (d0, d1 floordiv 4, d1 mod 4)> }>> func.func private @NV_24(%arg0: tensor) { return }